DE3623741A1 - Vibrating rod limit switch for level measurement of liquids and loose material - Google Patents

Abstract

A vibrating rod limit switch for level measurement of liquids and loose material consists of a threaded sleeve (1) that can be screwed into the wall of a container, with a vibrating bottom (4), on the external surface of which one or more vibrating rods (5) are placed, a vibration generator (18) arranged inside the threaded sleeve (1) and piezoelectric vibration receiver (21) as well as a housing (8, 24) attached to the threaded sleeve (1), which housing contains the electronic components (23) for the vibration generator (18) and the vibration receiver (21). For a simple exchange of the vibration generator and receiver as well as of the electronic components, inside the threaded sleeve (1) there are arranged a vibrating rod (6) equipped with an iron core (7) and connected to the vibrating bottom (4) and a guide sleeve (15) which contains an electric vibrating magnet (18) and the piezoelectric vibration receiver (21), which is pushed against the vibrating bottom (4) by a compression spring (20). The guide sleeve (15) is equipped with a dish-shaped projection (22), in which the electronic components (23) are arranged. The threaded sleeve (1) is equipped with three vibrating rods (5) on the external surface of the vibrating bottom (4), and the internal vibrating rod (6) is arranged axially to an external vibrating rod (5). <IMAGE>

Description

The invention relates to a vibrating rod limit switch for level measurement of liquids and bulk materials, the from a threaded sleeve that can be screwed into a container wall with a swinging floor, on the outer surface of one or several vibrating rods are attached, one inside the Threaded sleeve arranged vibration generator and piezo electrical vibration receiver and one on the Ge wind sleeve attached housing, which the elek trical and electronic components for the vibration generator and contains the vibration receiver.

Oscillating rod limit switches are used for level measurement of Liquids and bulk goods in containers (silos). If the liquid or the bulk material comes with the in Vibration put vibrating bars in contact, he follows an attenuation by the piezoelectric Vibration receiver recorded and by means of a electronic circuit is evaluated. Both Known vibrating rod limit switches are the vibrating rods with a piezoelectric vibrator vibrated and also the vibration reception happens with the help of a piezoelectric receiver. These piezoelectric components are usually on  vibratable parts of the device using plastic adhesive attached above or the like, so that in the event of a defect an exchange when the device is installed is practical not possible. There are usually devices with one hollow trained vibrating rod known, in the hollow space of the vibration generator is arranged. At a other version are two swinging on the swinging floor rods attached, and the piezoelectric vibration The generator is on the counter surface of the vibration floor attached.

In contrast, the invention is based on the object a vibrating rod limit switch of the generic type trained in such a way that the vibration excitation, serve vibration reception and signal evaluation the components quickly, even when the device is installed and are easily interchangeable.

This object is achieved in that inside the threaded sleeve with the vibrating floor bound inner with an iron core Vibrating rod and a guide sleeve are arranged, which is an electric vibrating magnet and that of a compression spring pressed against the swinging floor contains piezoelectric vibration receiver.

Both the vibration generator and the vibration Interchangeable components with the help of receivers a guide sleeve and a compression spring in their ar fixed position. While the threaded sleeve with the associated vibrating rods on the container remains screwed, if necessary after removing the Housing the guide sleeve to be pulled out the vibrating magnet and / or the piezoelectric Exchange vibration receivers. In the built in was the piezoelectric vibration receiver in a simple way with the help of a compression spring  pressed the swinging floor. Also during the initial assembly First the thread provided with the vibrating rods sleeve installed in the wall of the container and then Pre-inserting the sensitive device parts be taken.

The guide sleeve is useful with a longitudinal slot provided, in which the inner vibrating rod lies. Hereby the exact position of the oscillating magnet becomes the inner one Vibrating rod reached. To fix the components in the Guide sleeve, the compression spring is preferably between the one with its end on a shoulder of the guide sleeve adjacent vibrating magnet and the vibration receiver ger arranged. Furthermore, the guide sleeve with a bowl-shaped approach, in which the electronic components that are housed at for example assigned to an insertable circuit board are. The housing is preferably with one on the Threaded sleeve attachable and by snap locks Locked socket provided so that the first assembly is significantly simplified. Although the device with one or any number of vibrating rods are preferably on the outer surface of the Schwingboden provided three vibrating rods, and the inner vibration rod lies axially to an outer vibration Rod.

The object of the invention is in the drawing in shown an embodiment; it shows:

Fig. 1 is a vibrating rod limit switch in a perspective representation,

Fig. 2 shows a longitudinal section through the middle device part of the object of FIGS. 1 and

Fig. 3 shows the subject of Fig. 2 in a cross section along line II.

The vibrating rod limit switch consists essentially of a threaded sleeve 1 , which is screwable (not shown) with its external thread 2 with the interposition of a sealing ring 3 in an appropriate threaded bore of a container (silos). The threaded sleeve 1 is provided with an oscillating floor 4 , which on the one hand closes the silo space to the equipment room and on the other hand is seen with three vibrating rods 5 projecting into the silo space. These vibrating rods 5 are arranged offset by 120 ° and have at their end a paddle which increases the vibrating mass. Within the threaded sleeve 1 there is a vibration generating the nender, tubular vibrating rod 6 , in the cavity of which a rod-shaped iron core 7 is arranged. This inner vibrating rod 6 lies axially to the longitudinal axis of one of the three vibrating rods 5 projecting into the silo space, this outer vibrating rod 5 and the inner vibrating rod 6 also being able to form a single rod. The provided with the vibrating base 4 and the vibrating rods 5 , 6 threaded sleeve 1 forms a uniform metallic component.

The vibrating rod limit switch is also assigned to a lower housing part 8 , which is interposed with an O-ring 25 by means of a hook-shaped Schnappver 10 provided connector 9 via a neck 12 provided with a snap shoulder 11 of the threaded sleeve 1 . A sealing sleeve 13 lies above it. The lower housing part 8 is also provided with a connector 14 for the power and signal cables. The lower housing part 8 and the associated housing cover 24 are preferably made of plastic.

Another component of the vibrating rod limit switch is a guide sleeve 15 , which contains the components used to generate and measure vibrations and fixes them in the device. This guide sleeve 15 is inserted into the threaded sleeve 1, the inner vibrating rod 6 comes to lie in a Länsschlitz 16 of the guide sleeve 15 (see. Fig. 3). The sleeve chamber 17 of the guide sleeve 15 has a right-angled cross section and serves to receive a cooperating with the inner vibrating rod 6 vibrating magnet 18 and a against the vibrating base 4 anlie ing piezoelectric vibration receiver 21 , both of which are provided with a corresponding rectangular cross section, so that a rotation-proof installation is ensured. The equipped with a magnetic coil vibrating magnet 18 is against a school ter 19 , and between the vibrating magnet 18 and the piezoelectric vibration receiver 21 , a compression spring 20 is arranged, which presses the piezoelectric vibration receiver 21 against the vibrating floor 4 . The vibration receiver 21 is provided with a suitable piezoelectric element which absorbs the vibrations exerted by the vibrating base 4 and converts them into electrical signals.

At the outer end, the guide sleeve 15 is provided with a bowl-shaped extension 22 which is in the lower part 8 and which, for example, accommodates electronic components 23 arranged on one or more printed circuit boards. The guide sleeve 15 bil det with the approach 22 a plastic molded unit.

After attaching the threaded sleeve 1 to the silo wall and plugging the lower housing part 8 , the guide sleeve 15 equipped with the oscillating magnet 18 , the compression spring 20 , the vibration receiver 21 and the electronic components 23 is inserted into the threaded sleeve 1 . This kit can be easily removed after loosening the housing cover 24 .

Claims (6)

1. Vibrating rod limit switch for level measurement of liquids and bulk goods, consisting of a threaded sleeve that can be screwed into a container wall with a vibrating base, on the outer surface of which one or more vibrating rods are attached, a vibration generator and piezoelectric vibration receiver arranged inside the threaded sleeve, and one attached to the threaded sleeve Housing, which contains the electronic components for the vibration generator and the vibration receiver, characterized in that within the threaded sleeve ( 1 ) is connected to the vibrating base ( 4 ) and is provided with an iron core ( 7 ) and an inner vibrating rod ( 6 ) and one Guide sleeve ( 15 ) are arranged, which contains an electric Schwingmagne ten ( 18 ) and the pressure spring ( 20 ) against the vibrating base ( 4 ) pressed piezoelectric vibration receiver ( 21 ). 2. Vibrating rod limit switch according to claim 1, characterized in that the guide sleeve ( 15 ) is provided with a longitudinal slot ( 16 ) in which the inner vibrating rod ( 6 ) lies. 3. vibrating rod limit switch according to claim 1 or 2, characterized in that the compression spring ( 20 ) between the rule at one end on a shoulder ( 19 ) of the guide sleeve ( 15 ) adjacent vibrating magnet ( 18 ) and the vibration receiver ( 21 ) is. 4. vibrating rod limit switch according to one of claims 1 to 3, characterized in that the guide sleeve ( 15 ) is provided with a bowl-shaped extension ( 22 ) in which the electronic components ( 23 ) are arranged. 5. Oscillating rod limit switch according to one of claims 1 to 4, characterized in that the housing is provided with a connector ( 9 ) which can be plugged onto the threaded sleeve ( 1 ) and locked by snap closures ( 10 ). 6. vibrating rod limit switch according to one of claims 1 to 5, characterized in that the threaded sleeve ( 1 ) on the outer surface of the vibrating base ( 4 ) is provided with three vibrating rods ( 5 ) and that the inner vibrating rod ( 6 ) axially to one outer vibrating rod ( 5 ).